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Transcript

Individual Presentation

uses and aplications of informatic in the medicine

Start

INDEX

introducction .................................................................................... 3

organ printing ................................................................................... 4

How it works the organ printing ? ................................................. 5-6

remotes operations ........................................................................... 7

How works the remote operations? ................................................8

kangduo sr2000 Surgical System ....................................................9

Difficulties and disadvantages from remote interventions ..... 10

conclusion ........................................................................................... 11

Introducction

In today's work we are going to talk about the technological innovations that informatics brings to the area of medicine, starting with the printing of organs and ending with remote surgery. I hope you enjoy the presentation.

organ printing

Probably if you think in a printer it comes in your head the typical paper printer, but what if i tell you that nowadays thanks to the informatic can we produce articial organs.

Thanks to the informatic today we have the oportunity to make artificial organs that all the persons in the future can use saving thousands of lifes.

How it works the organ printing ?

Step 1: Developing the 3D Model

Using an advanced software, a specific 3D model that would fit the patient can be created. By personalizing the 3D model, the finished printed organ, the chance for a successful implant increases.

Step 2: Harvesting the patient's cells and selecting the biomaterial

To further minimize the risk of organ rejection, using a patient’s own cells is beneficial. These cells are then grown and mixed with a bioink which has been specifically made to print the desired tissue.

Step 3: Printing the organ model

After the 3D model has been finalized and the cells have been cultured and mixed, it is time to print the organ. The bioink, containing the patient’s cells, is printed following the 3D model design.

Step 4: Operate the patient

Finally the last part is the operation, where the doctors implant the artificial organ on the patient.

remotes operations

Starting for the last point, what happend if in your city or in your country didnt have the specialist that you needed to proced with the intervetion.

Theres when the informatic came to save the day again, thanks to the high cuality softwares and robots that we developing a doctor from China can operate you in whatever part of the world that has the IT resources to realizate the intervention.

How works the remote operations?

What you see rignt now is the console of the system, in that console de surgeon sits an take de control of the robot.

The monitors count with a high definition system and provides the surgeon a variable zoom that benefist the precision and efectivity of the surgery.

kangduo sr2000 Surgical System

The KangDuo RS2000 system is a robotic surgery platform It is designed to perform minimally invasive surgical procedures, allowing operations to be performed thousands of miles away.

It provides a very high precision during the interventions and count with a variety of tools that made more easy to the surgeon made the intervetion with the lowest risk as posible.

Kangduo rs2000 robot costs between 800 thousend and 1 million euros.

Difficulties and disadvantages from remote interventions

1º The cost

The cost per intervention arround the 10 thousend and 20, obviusly not all the familys can afront.

2º The tecnology in the hospitals

Not in all the hospitals arround the world have this gadjets, in europe or china and EEUU maybe we normalize that the hospitals have a good healt system, but in other countrys the reality is very different.

3º the connection velocity

Remote robotic surgery requires an extremely fast, stable and very low latency Internet connection to ensure that the surgeon commands are transmitted without significant delays and that the robot can execute the movements accurately and safely.

conclusion

The final conclusion is that all that new technologys are in developing and slowly aply in our lives updating our medicine systems and our live quality, its right that there are still many years of development to go before it is perfect, but it will gradually become the future of medicine.

END

Thanks for listening me and now make our questions

Bibliography

https://www.cellink.com/blog/3d-printed-organs/

https://www.news-medical.net/health/What-is-Remote-SurgeryTelesurgery.aspx

https://headneckroboticsurgery.com/2024/07/14/kangduo-surgical-robot-what-is-happening-in-china/

http://en.hrbszr.com/index.php?m=content&c=index&a=show&catid=11&id=38

https://my.clevelandclinic.org/health/treatments/22178-robotic-surgery

A bioink is any natural or synthetic polymer which has been selected for its biocompatible components and favorable rheological properties. A bioink will typically support living cells, and its characteristics aids cell adhesion, cell proliferation and cell differentiation during maturation.